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Peroxisomal enzyme activities in the human hepatoblastoma cell line HepG2 as compared to human liver

Wanders, R.J.A. ; van Roermund, C.W.T. ; Griffioen, M. ; [et al.]

Amsterdam : Elsevier

Biochimica et Biophysica Acta (BBA)/General Subjects 1115 (1991), S. 54-59

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ISSN: 0304-4165

Keywords: (Human liver) ; HepG2 ; Hepatoblastoma cell line ; Hepatoma cell ; Hyperoxaluria ; Peroxisome

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology , Medicine , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1016/0304-4165(91)90011-5

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Task-dependent changes of intracortical inhibition (1998)

Liepert, J. ; Classen, J. ; Cohen, L. G. ; [et al.]

Springer

Experimental brain research 118 (1998), S. 421-426

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ISSN: 1432-1106

Keywords: Key words Intracortical inhibition ; Transcranial magnetic stimulation ; Motor exercise ; Human

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The motor-evoked potential (MEP) to transcranial magnetic stimulation (TMS) is inhibited when preceded by a subthreshold TMS stimulus at short intervals (1–6 ms; intracortical inhibition, ICI) and is facilitated when preceded by a subthreshold TMS at longer intervals (10–15 ms; intracortical facilitation, ICF). We studied changes in ICI and ICF associated with two motor tasks requiring a different selectivity in fine motor control of small hand muscles (abductor pollicis brevis muscle, APB, and fourth dorsal interosseous muscle, 4DIO). In experiment 1 (exp. 1), nine healthy subjects completed four sets (5 min duration each) of repetitive (1 Hz) thumb movements. In experiment 2 (exp. 2), the subjects produced the same number of thumb movements, but complete relaxation of 4DIO was demanded. Following free thumb movements (exp. 1), amplitudes of MEPs in response to both single and paired TMS showed a trend to increase with the number of exercise sets in both APB and 4DIO. By contrast, more focal, selective thumb movementsinvolving APB with relaxation of 4DIO (exp. 2) caused an increase in MEP amplitudes after single and paired pulses only in APB, while a marked decrease in MEPs after paired pulses, but not after single TMS, in the actively relaxed 4DIO. This effect was more prominent for the interstimulus interval (ISI) of 1–3 ms than for longer ISIs (8 ms, 10 ms, and 15 ms). F-wave amplitudes reflecting excitability of the alpha motoneuron pool were unaltered in APB and 4DIO, suggesting a supraspinal origin for the observed changes. We conclude that plastic changes of ICI and ICF within the hand representation vary according to the selective requirements of the motor program. Performance of more focal tasks may be associated with a decrease in ICI in muscles engaged in the training task, while at the same time ICI may be increased in an actively relaxed muscle, also required for a focal performance. Additionally, our data further supports the idea that ICI and ICF may be controlled independently.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002210050296

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Cutaneomotor integration in humans is somatotopically organized at various levels of the nervous system and is task dependent (2000)

Classen, J. ; Steinfelder, B. ; Liepert, J. ; [et al.]

Springer

Experimental brain research 130 (2000), S. 48-59

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ISSN: 1432-1106

Keywords: Key words Somatotopy ; Input-Output ; Inhibition ; Excitation ; Transcranial magnetic stimulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Integration of tactile afferent signals with motor commands is crucial for the performance of purposeful movements such as during manipulation of an object in the hand. To study the somatotopic organization of sensorimotor integration we applied electrical peripheral conditioning stimuli to a digit located near (homotopic stimulation) or distant from (heterotopic stimulation) relaxed or isometrically contracted intrinsic hand muscles at variable time intervals prior to transcranial magnetic stimulation (TMS). Cutaneous stimulation has previously been shown to modulate the amplitude of the motor evoked potential (MEP) and to shorten the duration of the silent period (SP) evoked by TMS. In relaxed target muscles the time-dependent modulation of TMS-evoked motor responses by homotopic conditioning stimulation differed from modulation by heterotopic stimulation. Similar differences in the modulation pattern evoked by homotopic and heterotopic conditioning stimulation were observed for two distinct target muscles of the hand (abductor digiti minimi, abductor pollicis brevis muscle). Differences in modulation were maximal when the conditioning stimulation was applied 25–30 ms and 150–200 ms prior to TMS. Comparison of the modulation of the amplitudes of MEPs evoked by transcranial electrical stimulation (TES) and the modulation of those evoked by TMS suggests that differences between homotopic and heterotopic stimulation originate subcortically at 25- to 30-ms and, at least partially, cortically at 150- to 200-ms interstimulus intervals. In isometrically contracted intrinsic hand muscles the degree to which the SP was shortened reflected the location and the timing of the conditioning stimulus. Shortening was maximal when the conditioning stimulus was applied nearest to the contracted target muscle and 20 ms prior to the test stimulus. In contrast to the SP duration, the MEP size in voluntarily contracted target muscles was unaffected by the location of the conditioning stimulus. The somatotopic gradient of SP shortening was abolished when the two target muscles were simultaneously activated isometrically. Together, our findings suggest that somatotopy of input-output relationships is implemented at both a spinal and a cortical level in the human central nervous system and may also depend on the motor task involved.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002210050005

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